Optimizing RF Signal Performance to Improve LTE · PDF fileOptimizing RF Signal Performance to...
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Confidential and Proprietary© Copyright 2014 Westell Technologies, Inc.
All Rights Reserved
Optimizing RF Signal Performance to Improve LTE Coverage and
CapacityTim Keller
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Presentation Abstract• With the dramatic growth of data traffic, service providers are
increasingly turning to 4G LTE to provide the capacity theirsubscribers demand. Cell site optimization and improving the RFsignal performance of LTE networks has become critical. Towermounted amplifiers (TMAs) are a cost-effective solution that can beused to expand a cell site’s coverage area (including VoLTErollouts) and improve the signal-to-noise ratio for the uplinkpath. This presentation will discuss how TMAs help serviceproviders by optimizing the receive sensitivity of a site’s antennasystem, expanding the site’s coverage area and providing higheruplink data throughput.
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Agenda• Market Trends
• Problems and challenges
• Options and solutions
• Benefits of uplink improvements
• Conclusion
• Q&A
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Market Trends
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Market Trends - Mobile Data Growth 2013-2019
• Mobile data grows at CAGR of 45% from 2013 to 2019
• Driven by the widespread adoption of Smartphones
– Users of newer Smartphones use more data
• Models from 2013 consumed 7.2 times more data than 2009 models
• Larger screen sizes and more processing power more data usage
• Data growth dominates voice growth
• Even in mature markets with high Smartphone usage data growth is significant
• Faster growth on the uplink than on the downlink
– In 2013, downlink data grew at 100% while uplink grew 141%
• Indicates growth in video sharing, video conferencing, social networking
Source: Ericsson Mobility Report, June 2014
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Market Trends - Mobile Providers Turn to LTE
• Operators has committed to for 500 networks– 49 Networks in North America
• LTE connections are forecast to surpass 2.3 billion by 2020– 125.8 million connection in
North America
• 10 radio spectrum bands used for LTE today ranging from 700 MHz to 2.6 GHz
• LTE-Advanced deployments beginning
– AT&T launched LTE-Advanced in March 2014
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2009 2010 2011 2012 2013 2014
Commercial LTE Networks
Commercial LTE Networks
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Problems and Challenges
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Problems and Challenges• Data hungry consumers with tight budgets
– Large or unlimited data plans are becoming more common
• Net result ARPU is falling and the average revenue per megabyte of data is falling dramatically.
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Problems and Challenges
• Introduction of VoLTE– In order to satisfy customers demand for data, operators need to move
voice services from 2G and 3G networks to LTE and eventually re-commission the freed up spectrum for LTE
• Key issues for VoLTE deployment– Handset availability
• Two handsets made available by Verizon in their VoLTE rollout
– Coverage, coverage, coverage• Coverage holes mean CSFB is required can’t decommission
2G/3G
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Options and Solutions
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Options and Solutions
• Goal – Overcome large link budget imbalance of LTE
• Options– Increase transmit power of mobile devices
• Not practical
– Build more macro cell sites• Expensive, time-consuming
– Bring RF point of presence closer to the user• DAS, Small Cells
– Attractive options that will continue to grow for the foreseeable future
» Still RF challenged areas will exist
– Use Tower Mounted Amplifiers to boost uplink
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TMA Overview
• Cost effective tool for optimizing cell site RF signal performance
• Band specific, dual-duplexed, tuned cavity filter with a low noise amplifier (LNA) for the uplink signal
• Typically mounted on the top of a cell tower close to the antenna and before the long lossy cable run to the eNodeB
• What does a TMA do?– Filters and amplifies the uplink signal
– Filters the downlink signal
– Provides auto-bypass in case of failure• Sector stays up but with slight degradation
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Benefits of Uplink Improvement
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TMA Specs – Gain and Noise Figure
• Two important specifications of a TMA– Noise figure
– Gain
• TMA Gain and Noise figure are used to calculate the overall system noise figure using the Friis Equation
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Cascaded NF Calculation – Baseline
Receive System Component Item dB Linear
F1 0.10 1.0G1 -0.10 1.0F2 3.00 2.0G2 -3.00 0.5F3 0.50 1.1G3 -0.50 0.9F4 3.75 2.4G4 0.00 1.0
SYSTEM NF 7.35 5.4
Main Feeder Cable
Jumper Cable
eNodeB
Baseline - No TMA
Jumper Cable
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Cascaded NF Calculation – Tower Mounted TMA
Receive System Component Item dB Linear
F1 0.10 1.0G1 -0.10 1.0F2 1.10 1.3G2 13.00 20.0F3 3.00 2.0G3 -3.00 0.5F4 0.50 1.1G4 -0.50 0.9F5 3.75 2.4G5 0.00 1.0
SYSTEM NF 1.88 1.5
Jumper Cable
eNodeB
TMA
TMA Mounted at Tower Top
Jumper Cable
Main Feeder Cable
Improved Rx Sensitivity 5.4716
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Cascaded NF Calculation – Ground Mounted TMA
Receive System Component Item dB Linear
F1 0.10 1.0G1 -0.10 1.0F2 3.00 2.0G2 -3.00 0.5F3 0.50 1.1G3 -0.50 0.9F4 1.10 1.3G4 13.00 20.0F5 3.75 2.4G5 0.00 1.0
SYSTEM NF 4.93 3.1
Jumper Cable
eNodeB
TMA
TMA Mounted on Ground
Jumper Cable
Main Feeder Cable
Improved Rx Sensitivity 2.4217
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Mobile Internet Performance Driver
Maximum Wireless Data RateShannon Theory : C = H * log2 (1+SNR)
Key parameters to optimize data rate :1) Spectrum bandwidth (H)2) Wireless standards (Adaptive data rate)3) Network implementation and optimization (SNR)
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Important TMA Characteristics• Noise figure (NF) and noise factor (F)
– Measures of degradation of the signal-to-noise ratio (SNR) caused by components in a radio frequency signal chain
– Number used to specify performance of a radio receiver
• Gain– Measure in dB of the amplification applied to the uplink signal
• Passive Intermodulation (PIM) – Result of two or more frequencies interacting with one another to create
separate harmonic that can degrade system performance
• Insertion Loss – Loss of signal power as a result of inserting a device in a transmission
line
• Return Loss – Loss of signal power caused by reflection due to a discontinuity in a
transmission system
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TMA Value Proposition - Uplink KPI Improvements
Uplink KPI Rural Urban
RRC Drops 25-35% 0-10%
RRC Failures 35-40% 0-10%
Reduced UE Transmit Power 3-6dB 1-3dB
Coverage Area Expansion 50-100% 15-50%
QPSK BLER 5-15% 5-15%
16QAM BLER 0-5% 0-20%
HARQ ACK % 2-6% 2-6%
Average Data Throughput 0-20% 15-50%
Average Packet Loss 10-50% 20-60%
SINR 0-2dB 1-3dB
TTI Occupancy 20-40% 20-40%
Uplink KPI
RRC Drops
RRC Failures
Reduced UE Transmit Power
Coverage Area Expansion
QPSK BLER
16QAM BLER
HARQ ACK %
Average Data Throughput
Average Packet Loss
SINR
TTI Occupancy
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Conclusion
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TMA Value Proposition
Tower Mounted Amplifier
Expand Coverage Area- Balance link budget equation
- Extends range of uplink signal
- Improves in-building coverage
- Critical for VoLTE
Increase Site Capacity- Higher uplink data throughput
- More users due to expanded coverage area
- More users due to in-building coverage
Improve User Experience- Faster uploads
- Fewer dropped calls
- Extended battery life
Cost Effective and Highly Reliable- Reduce need for new site builds
- MTBF of over two million hours
- Automatic LNA bypass ensures site remains up even during failure
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Questions?
Tim KellerSenior Product ManagerEmail: [email protected] +1 (630) 375 4322
For more information visit us at: www.westell.com
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